spatstat

Comprehensive open-source toolbox for analysing Spatial Point Patterns. Focused mainly on two-dimensional point patterns, including multitype/marked points, in any spatial region. Also supports three-dimensional point patterns, space-time point patterns in any number of dimensions, point patterns on a linear network, and patterns of other geometrical objects. Supports spatial covariate data such as pixel images. Contains over 3000 functions for plotting spatial data, exploratory data analysis, model-fitting, simulation, spatial sampling, model diagnostics, and formal inference. Data types include point patterns, line segment patterns, spatial windows, pixel images, tessellations, and linear networks. Exploratory methods include quadrat counts, K-functions and their simulation envelopes, nearest neighbour distance and empty space statistics, Fry plots, pair correlation function, kernel smoothed intensity, relative risk estimation with cross-validated bandwidth selection, mark correlation functions, segregation indices, mark dependence diagnostics, and kernel estimates of covariate effects. Formal hypothesis tests of random pattern (chi-squared, Kolmogorov-Smirnov, Monte Carlo, Diggle-Cressie-Loosmore-Ford, Dao-Genton, two-stage Monte Carlo) and tests for covariate effects (Cox-Berman-Waller-Lawson, Kolmogorov-Smirnov, ANOVA) are also supported.Parametric models can be fitted to point pattern data using the functions ppm(), kppm(), slrm(), dppm() similar to glm(). Types of models include Poisson, Gibbs and Cox point processes, Neyman-Scott cluster processes, and determinantal point processes. Models may involve dependence on covariates, inter-point interaction, cluster formation and dependence on marks. Models are fitted by maximum likelihood, logistic regression, minimum contrast, and composite likelihood methods. A model can be fitted to a list of point patterns (replicated point pattern data) using the function mppm(). The model can include random effects and fixed effects depending on the experimental design, in addition to all the features listed above.Fitted point process models can be simulated, automatically. Formal hypothesis tests of a fitted model are supported (likelihood ratio test, analysis of deviance, Monte Carlo tests) along with basic tools for model selection (stepwise(), AIC()) and variable selection (sdr). Tools for validating the fitted model include simulation envelopes, residuals, residual plots and Q-Q plots, leverage and influence diagnostics, partial residuals, and added variable plots.

Cell Shape Analysis of Random Tessellations Based on Minkowski Tensors ⋮ Illustrating Randomness in Statistics Courses With Spatial Experiments ⋮ Sparse Functional Boxplots for Multivariate Curves ⋮ Development and evaluation of spatial point process models for epidermal nerve fibers ⋮ Residual Analysis for Inhomogeneous Neyman-Scott Processes ⋮ First- and Second-Order Characteristics of Spatio-Temporal Point Processes on Linear Networks ⋮ Kriging Riemannian Data via Random Domain Decompositions ⋮ Reach of repulsion for determinantal point processes in high dimensions ⋮ Pair correlation functions and limiting distributions of iterated cluster point processes ⋮ BAYESIAN SELECTION OF LOCAL BANDWIDTH IN NON-HOMOGENEOUS POISSON PROCESS KERNEL ESTIMATORS FOR THE INTENSITY FUNCTION ⋮ Cauchy cluster process ⋮ Two-step estimation procedures for inhomogeneous shot-noise Cox processes ⋮ Time-frequency transforms of white noises and Gaussian analytic functions ⋮ Spatial Point Patterns: Models and Statistics ⋮ MCMC Computations for Bayesian Mixture Models Using Repulsive Point Processes ⋮ Assessing implicit hypotheses in life table construction ⋮ Polynomial ensembles and recurrence coefficients ⋮ Unnamed Item ⋮ Determinantal point processes ⋮ Mixing properties and central limit theorem for associated point processes ⋮ Computation of lacunarity from covariance of spatial binary maps ⋮ On proportional volume sampling for experimental design in general spaces ⋮ Applied Spatial Data Analysis with R ⋮ PARAMETER ESTIMATION IN NON-HOMOGENEOUS BOOLEAN MODELS: AN APPLICATION TO PLANT DEFENSE RESPONSE ⋮ The Poisson binomial distribution -- old \& new ⋮ Contrast Estimation for Parametric Stationary Determinantal Point Processes ⋮ On a few statistical applications of determinantal point processes ⋮ Effect of endothelial glycocalyx layer redistribution upon microvessel poroelastohydrodynamics ⋮ Scaling Oversmoothing Factors for Kernel Estimation of Spatial Relative Risk ⋮ Spatio-temporal improvised explosive device monitoring: improving detection to minimise attacks ⋮ Identifying radon-prone building typologies by marginal modelling ⋮ Determinantal Point Process Models and Statistical Inference ⋮ Applied Spatial Data Analysis with R ⋮ A new metric between distributions of point processes ⋮ Modelling the location decisions of manufacturing firms with a spatial point process approach ⋮ Modelling and classification of species abundance: a case study in the Barro Colorado Island plot ⋮ Exact sampling of determinantal point processes without eigendecomposition ⋮ An extension of Monte Carlo hypothesis tests ⋮ A Model-Based Approach for Making Ecological Inference from Distance Sampling Data ⋮ Leverage and Influence Diagnostics for Spatial Point Processes ⋮ Bounds for the Probability Generating Functional of a Gibbs Point Process ⋮ Unnamed Item ⋮ Thinning spatial point processes into Poisson processes ⋮ An Estimating Function Approach to Inference for Inhomogeneous Neyman–Scott Processes ⋮ Incorporating big microdata in life table construction: A hypothesis-free estimator ⋮ A \(J\)-function for marked point patterns ⋮ The stochastic geometry of unconstrained one-bit data compression ⋮ Statistical Analysis and Modelling of Spatial Point Patterns ⋮ Modelling Spatial Point Patterns in R ⋮ A note on the simulation of the Ginibre point process ⋮ Score, pseudo-score and residual diagnostics for spatial point process models ⋮ Unnamed Item ⋮ Unnamed Item ⋮ Structured Spatio-Temporal Shot-Noise Cox Point Process Models, with a View to Modelling Forest Fires ⋮ Determinantal point process mixtures via spectral density approach ⋮ On the zeros of the spectrogram of white noise ⋮ Consistent Smooth Bootstrap Kernel Intensity Estimation for Inhomogeneous Spatial Poisson Point Processes ⋮ Hidden Second-order Stationary Spatial Point Processes ⋮ Modelling Aggregation on the Large Scale and Regularity on the Small Scale in Spatial Point Pattern Datasets ⋮ Estimating functions for inhomogeneous spatial point processes with incomplete covariate data ⋮ Bias correction for parameter estimates of spatial point process models ⋮ A Thinned Block Bootstrap Variance Estimation Procedure for Inhomogeneous Spatial Point Patterns ⋮ Unnamed Item ⋮ Adjusted composite likelihood ratio test for spatial Gibbs point processes ⋮ Performance of distance sampling estimators: a simulation study for designs based on footpaths ⋮ The Accumulated Persistence Function, a New Useful Functional Summary Statistic for Topological Data Analysis, With a View to Brain Artery Trees and Spatial Point Process Applications ⋮ Stochastic Quasi-Likelihood for Case-Control Point Pattern Data ⋮ Bayesian Semiparametric Intensity Estimation for Inhomogeneous Spatial Point Processes ⋮ Determinantal sampling designs ⋮ Parameter Estimation for Inhomogeneous Space‐Time Shot‐Noise Cox Point Processes ⋮ Residual Analysis for Spatial Point Processes (with Discussion) ⋮ Cardinality estimation for random stopping sets based on Poisson point processes ⋮ Unnamed Item ⋮ Normal approximation for associated point processes via Stein's method with applications to determinantal point processes ⋮ Couplings for determinantal point processes and their reduced Palm distributions with a view to quantifying repulsiveness ⋮ Incomplete determinantal processes: from random matrix to Poisson statistics ⋮ Unnamed Item ⋮ Spatiotemporal point processes: regression, model specifications and future directions ⋮ A J‐function for Inhomogeneous Spatio‐temporal Point Processes ⋮ Sliced Inverse Regression and Independence in Random Marked Sets with Covariates ⋮ Kernel Density Estimation on a Linear Network ⋮ Variable selection for inhomogeneous spatial point process models ⋮ Determinantal Point Processes for Image Processing ⋮ Fast Covariance Estimation for Innovations Computed from a Spatial Gibbs Point Process ⋮ Diffraction theory of point processes: systems with clumping and repulsion ⋮ Unnamed Item ⋮ Geometrically Corrected Second Order Analysis of Events on a Linear Network, with Applications to Ecology and Criminology ⋮ Equivalence of MAXENT and Poisson Point Process Models for Species Distribution Modeling in Ecology ⋮ Circulant L-ensembles in the thermodynamic limit ⋮ Transforming Spatial Point Processes into Poisson Processes Using Random Superposition ⋮ Intensity approximation for pairwise interaction Gibbs point processes using determinantal point processes ⋮ Improving the usability of spatial point process methodology: an interdisciplinary dialogue between statistics and ecology ⋮ A common goodness-of-fit framework for neural population models using marked point process time-rescaling ⋮ Self-exciting point processes: infections and implementations ⋮ Novel concave hull-based heuristic algorithm for TSP ⋮ Summary statistics for inhomogeneous marked point processes ⋮ On the strong Brillinger-mixing property of \(\alpha\)-determinantal point processes and some applications. ⋮ On the Bayesian estimation for the stationary Neyman-Scott point processes. ⋮ Intensity estimation on geometric networks with penalized splines ⋮ Unbiased estimation of the volume of a convex body